/usr/lib/python3/dist-packages/Cython/Compiler/TypeSlots.py is in cython3 0.25.2-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# Tables describing slots in the CPython type object
# and associated know-how.
#
from __future__ import absolute_import
from . import Naming
from . import PyrexTypes
from .Errors import error
invisible = ['__cinit__', '__dealloc__', '__richcmp__',
'__nonzero__', '__bool__']
class Signature(object):
# Method slot signature descriptor.
#
# has_dummy_arg boolean
# has_generic_args boolean
# fixed_arg_format string
# ret_format string
# error_value string
#
# The formats are strings made up of the following
# characters:
#
# 'O' Python object
# 'T' Python object of the type of 'self'
# 'v' void
# 'p' void *
# 'P' void **
# 'i' int
# 'b' bint
# 'I' int *
# 'l' long
# 'f' float
# 'd' double
# 'h' Py_hash_t
# 'z' Py_ssize_t
# 'Z' Py_ssize_t *
# 's' char *
# 'S' char **
# 'r' int used only to signal exception
# 'B' Py_buffer *
# '-' dummy 'self' argument (not used)
# '*' rest of args passed as generic Python
# arg tuple and kw dict (must be last
# char in format string)
format_map = {
'O': PyrexTypes.py_object_type,
'v': PyrexTypes.c_void_type,
'p': PyrexTypes.c_void_ptr_type,
'P': PyrexTypes.c_void_ptr_ptr_type,
'i': PyrexTypes.c_int_type,
'b': PyrexTypes.c_bint_type,
'I': PyrexTypes.c_int_ptr_type,
'l': PyrexTypes.c_long_type,
'f': PyrexTypes.c_float_type,
'd': PyrexTypes.c_double_type,
'h': PyrexTypes.c_py_hash_t_type,
'z': PyrexTypes.c_py_ssize_t_type,
'Z': PyrexTypes.c_py_ssize_t_ptr_type,
's': PyrexTypes.c_char_ptr_type,
'S': PyrexTypes.c_char_ptr_ptr_type,
'r': PyrexTypes.c_returncode_type,
'B': PyrexTypes.c_py_buffer_ptr_type,
# 'T', '-' and '*' are handled otherwise
# and are not looked up in here
}
type_to_format_map = dict(
(type_, format_) for format_, type_ in format_map.items())
error_value_map = {
'O': "NULL",
'T': "NULL",
'i': "-1",
'b': "-1",
'l': "-1",
'r': "-1",
'h': "-1",
'z': "-1",
}
def __init__(self, arg_format, ret_format):
self.has_dummy_arg = 0
self.has_generic_args = 0
if arg_format[:1] == '-':
self.has_dummy_arg = 1
arg_format = arg_format[1:]
if arg_format[-1:] == '*':
self.has_generic_args = 1
arg_format = arg_format[:-1]
self.fixed_arg_format = arg_format
self.ret_format = ret_format
self.error_value = self.error_value_map.get(ret_format, None)
self.exception_check = ret_format != 'r' and self.error_value is not None
self.is_staticmethod = False
def __repr__(self):
return '<Signature[%s(%s%s)]>' % (
self.ret_format,
', '.join(self.fixed_arg_format),
'*' if self.has_generic_args else '')
def num_fixed_args(self):
return len(self.fixed_arg_format)
def is_self_arg(self, i):
# argument is 'self' for methods or 'class' for classmethods
return self.fixed_arg_format[i] == 'T'
def returns_self_type(self):
# return type is same as 'self' argument type
return self.ret_format == 'T'
def fixed_arg_type(self, i):
return self.format_map[self.fixed_arg_format[i]]
def return_type(self):
return self.format_map[self.ret_format]
def format_from_type(self, arg_type):
if arg_type.is_pyobject:
arg_type = PyrexTypes.py_object_type
return self.type_to_format_map[arg_type]
def exception_value(self):
return self.error_value_map.get(self.ret_format)
def function_type(self, self_arg_override=None):
# Construct a C function type descriptor for this signature
args = []
for i in range(self.num_fixed_args()):
if self_arg_override is not None and self.is_self_arg(i):
assert isinstance(self_arg_override, PyrexTypes.CFuncTypeArg)
args.append(self_arg_override)
else:
arg_type = self.fixed_arg_type(i)
args.append(PyrexTypes.CFuncTypeArg("", arg_type, None))
if self_arg_override is not None and self.returns_self_type():
ret_type = self_arg_override.type
else:
ret_type = self.return_type()
exc_value = self.exception_value()
return PyrexTypes.CFuncType(
ret_type, args, exception_value=exc_value,
exception_check=self.exception_check)
def method_flags(self):
if self.ret_format == "O":
full_args = self.fixed_arg_format
if self.has_dummy_arg:
full_args = "O" + full_args
if full_args in ["O", "T"]:
if self.has_generic_args:
return [method_varargs, method_keywords]
else:
return [method_noargs]
elif full_args in ["OO", "TO"] and not self.has_generic_args:
return [method_onearg]
if self.is_staticmethod:
return [method_varargs, method_keywords]
return None
class SlotDescriptor(object):
# Abstract base class for type slot descriptors.
#
# slot_name string Member name of the slot in the type object
# is_initialised_dynamically Is initialised by code in the module init function
# is_inherited Is inherited by subtypes (see PyType_Ready())
# py3 Indicates presence of slot in Python 3
# py2 Indicates presence of slot in Python 2
# ifdef Full #ifdef string that slot is wrapped in. Using this causes py3, py2 and flags to be ignored.)
def __init__(self, slot_name, dynamic=False, inherited=False,
py3=True, py2=True, ifdef=None):
self.slot_name = slot_name
self.is_initialised_dynamically = dynamic
self.is_inherited = inherited
self.ifdef = ifdef
self.py3 = py3
self.py2 = py2
def preprocessor_guard_code(self):
ifdef = self.ifdef
py2 = self.py2
py3 = self.py3
guard = None
if ifdef:
guard = ("#if %s" % ifdef)
elif not py3 or py3 == '<RESERVED>':
guard = ("#if PY_MAJOR_VERSION < 3")
elif not py2:
guard = ("#if PY_MAJOR_VERSION >= 3")
return guard
def generate(self, scope, code):
preprocessor_guard = self.preprocessor_guard_code()
if preprocessor_guard:
code.putln(preprocessor_guard)
end_pypy_guard = False
if self.is_initialised_dynamically:
value = "0"
else:
value = self.slot_code(scope)
if value == "0" and self.is_inherited:
# PyPy currently has a broken PyType_Ready() that fails to
# inherit some slots. To work around this, we explicitly
# set inherited slots here, but only in PyPy since CPython
# handles this better than we do.
inherited_value = value
current_scope = scope
while (inherited_value == "0"
and current_scope.parent_type
and current_scope.parent_type.base_type
and current_scope.parent_type.base_type.scope):
current_scope = current_scope.parent_type.base_type.scope
inherited_value = self.slot_code(current_scope)
if inherited_value != "0":
code.putln("#if CYTHON_COMPILING_IN_PYPY")
code.putln("%s, /*%s*/" % (inherited_value, self.slot_name))
code.putln("#else")
end_pypy_guard = True
code.putln("%s, /*%s*/" % (value, self.slot_name))
if end_pypy_guard:
code.putln("#endif")
if self.py3 == '<RESERVED>':
code.putln("#else")
code.putln("0, /*reserved*/")
if preprocessor_guard:
code.putln("#endif")
# Some C implementations have trouble statically
# initialising a global with a pointer to an extern
# function, so we initialise some of the type slots
# in the module init function instead.
def generate_dynamic_init_code(self, scope, code):
if self.is_initialised_dynamically:
value = self.slot_code(scope)
if value != "0":
code.putln("%s.%s = %s;" % (
scope.parent_type.typeobj_cname,
self.slot_name,
value
)
)
class FixedSlot(SlotDescriptor):
# Descriptor for a type slot with a fixed value.
#
# value string
def __init__(self, slot_name, value, py3=True, py2=True, ifdef=None):
SlotDescriptor.__init__(self, slot_name, py3=py3, py2=py2, ifdef=ifdef)
self.value = value
def slot_code(self, scope):
return self.value
class EmptySlot(FixedSlot):
# Descriptor for a type slot whose value is always 0.
def __init__(self, slot_name, py3=True, py2=True, ifdef=None):
FixedSlot.__init__(self, slot_name, "0", py3=py3, py2=py2, ifdef=ifdef)
class MethodSlot(SlotDescriptor):
# Type slot descriptor for a user-definable method.
#
# signature Signature
# method_name string The __xxx__ name of the method
# alternatives [string] Alternative list of __xxx__ names for the method
def __init__(self, signature, slot_name, method_name, fallback=None,
py3=True, py2=True, ifdef=None, inherited=True):
SlotDescriptor.__init__(self, slot_name, py3=py3, py2=py2,
ifdef=ifdef, inherited=inherited)
self.signature = signature
self.slot_name = slot_name
self.method_name = method_name
self.alternatives = []
method_name_to_slot[method_name] = self
#
if fallback:
self.alternatives.append(fallback)
for alt in (self.py2, self.py3):
if isinstance(alt, (tuple, list)):
slot_name, method_name = alt
self.alternatives.append(method_name)
method_name_to_slot[method_name] = self
def slot_code(self, scope):
entry = scope.lookup_here(self.method_name)
if entry and entry.func_cname:
return entry.func_cname
for method_name in self.alternatives:
entry = scope.lookup_here(method_name)
if entry and entry.func_cname:
return entry.func_cname
return "0"
class InternalMethodSlot(SlotDescriptor):
# Type slot descriptor for a method which is always
# synthesized by Cython.
#
# slot_name string Member name of the slot in the type object
def __init__(self, slot_name, **kargs):
SlotDescriptor.__init__(self, slot_name, **kargs)
def slot_code(self, scope):
return scope.mangle_internal(self.slot_name)
class GCDependentSlot(InternalMethodSlot):
# Descriptor for a slot whose value depends on whether
# the type participates in GC.
def __init__(self, slot_name, **kargs):
InternalMethodSlot.__init__(self, slot_name, **kargs)
def slot_code(self, scope):
if not scope.needs_gc():
return "0"
if not scope.has_cyclic_pyobject_attrs:
# if the type does not have GC relevant object attributes, it can
# delegate GC methods to its parent - iff the parent functions
# are defined in the same module
parent_type_scope = scope.parent_type.base_type.scope
if scope.parent_scope is parent_type_scope.parent_scope:
entry = scope.parent_scope.lookup_here(scope.parent_type.base_type.name)
if entry.visibility != 'extern':
return self.slot_code(parent_type_scope)
return InternalMethodSlot.slot_code(self, scope)
class GCClearReferencesSlot(GCDependentSlot):
def slot_code(self, scope):
if scope.needs_tp_clear():
return GCDependentSlot.slot_code(self, scope)
return "0"
class ConstructorSlot(InternalMethodSlot):
# Descriptor for tp_new and tp_dealloc.
def __init__(self, slot_name, method, **kargs):
InternalMethodSlot.__init__(self, slot_name, **kargs)
self.method = method
def slot_code(self, scope):
if (self.slot_name != 'tp_new'
and scope.parent_type.base_type
and not scope.has_pyobject_attrs
and not scope.has_memoryview_attrs
and not scope.has_cpp_class_attrs
and not scope.lookup_here(self.method)):
# if the type does not have object attributes, it can
# delegate GC methods to its parent - iff the parent
# functions are defined in the same module
parent_type_scope = scope.parent_type.base_type.scope
if scope.parent_scope is parent_type_scope.parent_scope:
entry = scope.parent_scope.lookup_here(scope.parent_type.base_type.name)
if entry.visibility != 'extern':
return self.slot_code(parent_type_scope)
return InternalMethodSlot.slot_code(self, scope)
class SyntheticSlot(InternalMethodSlot):
# Type slot descriptor for a synthesized method which
# dispatches to one or more user-defined methods depending
# on its arguments. If none of the relevant methods are
# defined, the method will not be synthesized and an
# alternative default value will be placed in the type
# slot.
def __init__(self, slot_name, user_methods, default_value, **kargs):
InternalMethodSlot.__init__(self, slot_name, **kargs)
self.user_methods = user_methods
self.default_value = default_value
def slot_code(self, scope):
if scope.defines_any(self.user_methods):
return InternalMethodSlot.slot_code(self, scope)
else:
return self.default_value
class TypeFlagsSlot(SlotDescriptor):
# Descriptor for the type flags slot.
def slot_code(self, scope):
value = "Py_TPFLAGS_DEFAULT"
if scope.directives['type_version_tag']:
# it's not in 'Py_TPFLAGS_DEFAULT' in Py2
value += "|Py_TPFLAGS_HAVE_VERSION_TAG"
else:
# it's enabled in 'Py_TPFLAGS_DEFAULT' in Py3
value = "(%s&~Py_TPFLAGS_HAVE_VERSION_TAG)" % value
value += "|Py_TPFLAGS_CHECKTYPES|Py_TPFLAGS_HAVE_NEWBUFFER"
if not scope.parent_type.is_final_type:
value += "|Py_TPFLAGS_BASETYPE"
if scope.needs_gc():
value += "|Py_TPFLAGS_HAVE_GC"
return value
class DocStringSlot(SlotDescriptor):
# Descriptor for the docstring slot.
def slot_code(self, scope):
doc = scope.doc
if doc is None:
return "0"
if doc.is_unicode:
doc = doc.as_utf8_string()
return doc.as_c_string_literal()
class SuiteSlot(SlotDescriptor):
# Descriptor for a substructure of the type object.
#
# sub_slots [SlotDescriptor]
def __init__(self, sub_slots, slot_type, slot_name, ifdef=None):
SlotDescriptor.__init__(self, slot_name, ifdef=ifdef)
self.sub_slots = sub_slots
self.slot_type = slot_type
substructures.append(self)
def is_empty(self, scope):
for slot in self.sub_slots:
if slot.slot_code(scope) != "0":
return False
return True
def substructure_cname(self, scope):
return "%s%s_%s" % (Naming.pyrex_prefix, self.slot_name, scope.class_name)
def slot_code(self, scope):
if not self.is_empty(scope):
return "&%s" % self.substructure_cname(scope)
return "0"
def generate_substructure(self, scope, code):
if not self.is_empty(scope):
code.putln("")
if self.ifdef:
code.putln("#if %s" % self.ifdef)
code.putln(
"static %s %s = {" % (
self.slot_type,
self.substructure_cname(scope)))
for slot in self.sub_slots:
slot.generate(scope, code)
code.putln("};")
if self.ifdef:
code.putln("#endif")
substructures = [] # List of all SuiteSlot instances
class MethodTableSlot(SlotDescriptor):
# Slot descriptor for the method table.
def slot_code(self, scope):
if scope.pyfunc_entries:
return scope.method_table_cname
else:
return "0"
class MemberTableSlot(SlotDescriptor):
# Slot descriptor for the table of Python-accessible attributes.
def slot_code(self, scope):
return "0"
class GetSetSlot(SlotDescriptor):
# Slot descriptor for the table of attribute get & set methods.
def slot_code(self, scope):
if scope.property_entries:
return scope.getset_table_cname
else:
return "0"
class BaseClassSlot(SlotDescriptor):
# Slot descriptor for the base class slot.
def __init__(self, name):
SlotDescriptor.__init__(self, name, dynamic = 1)
def generate_dynamic_init_code(self, scope, code):
base_type = scope.parent_type.base_type
if base_type:
code.putln("%s.%s = %s;" % (
scope.parent_type.typeobj_cname,
self.slot_name,
base_type.typeptr_cname))
class DictOffsetSlot(SlotDescriptor):
# Slot descriptor for a class' dict offset, for dynamic attributes.
def slot_code(self, scope):
dict_entry = scope.lookup_here("__dict__")
if dict_entry and dict_entry.is_variable:
if getattr(dict_entry.type, 'cname', None) != 'PyDict_Type':
error(dict_entry.pos, "__dict__ slot must be of type 'dict'")
return "0"
type = scope.parent_type
if type.typedef_flag:
objstruct = type.objstruct_cname
else:
objstruct = "struct %s" % type.objstruct_cname
return ("offsetof(%s, %s)" % (
objstruct,
dict_entry.cname))
else:
return "0"
# The following dictionary maps __xxx__ method names to slot descriptors.
method_name_to_slot = {}
## The following slots are (or could be) initialised with an
## extern function pointer.
#
#slots_initialised_from_extern = (
# "tp_free",
#)
#------------------------------------------------------------------------------------------
#
# Utility functions for accessing slot table data structures
#
#------------------------------------------------------------------------------------------
def get_special_method_signature(name):
# Given a method name, if it is a special method,
# return its signature, else return None.
slot = method_name_to_slot.get(name)
if slot:
return slot.signature
else:
return None
def get_property_accessor_signature(name):
# Return signature of accessor for an extension type
# property, else None.
return property_accessor_signatures.get(name)
def get_base_slot_function(scope, slot):
# Returns the function implementing this slot in the baseclass.
# This is useful for enabling the compiler to optimize calls
# that recursively climb the class hierarchy.
base_type = scope.parent_type.base_type
if scope.parent_scope is base_type.scope.parent_scope:
parent_slot = slot.slot_code(base_type.scope)
if parent_slot != '0':
entry = scope.parent_scope.lookup_here(scope.parent_type.base_type.name)
if entry.visibility != 'extern':
return parent_slot
return None
def get_slot_function(scope, slot):
# Returns the function implementing this slot in the baseclass.
# This is useful for enabling the compiler to optimize calls
# that recursively climb the class hierarchy.
slot_code = slot.slot_code(scope)
if slot_code != '0':
entry = scope.parent_scope.lookup_here(scope.parent_type.name)
if entry.visibility != 'extern':
return slot_code
return None
#------------------------------------------------------------------------------------------
#
# Signatures for generic Python functions and methods.
#
#------------------------------------------------------------------------------------------
pyfunction_signature = Signature("-*", "O")
pymethod_signature = Signature("T*", "O")
#------------------------------------------------------------------------------------------
#
# Signatures for simple Python functions.
#
#------------------------------------------------------------------------------------------
pyfunction_noargs = Signature("-", "O")
pyfunction_onearg = Signature("-O", "O")
#------------------------------------------------------------------------------------------
#
# Signatures for the various kinds of function that
# can appear in the type object and its substructures.
#
#------------------------------------------------------------------------------------------
unaryfunc = Signature("T", "O") # typedef PyObject * (*unaryfunc)(PyObject *);
binaryfunc = Signature("OO", "O") # typedef PyObject * (*binaryfunc)(PyObject *, PyObject *);
ibinaryfunc = Signature("TO", "O") # typedef PyObject * (*binaryfunc)(PyObject *, PyObject *);
ternaryfunc = Signature("OOO", "O") # typedef PyObject * (*ternaryfunc)(PyObject *, PyObject *, PyObject *);
iternaryfunc = Signature("TOO", "O") # typedef PyObject * (*ternaryfunc)(PyObject *, PyObject *, PyObject *);
callfunc = Signature("T*", "O") # typedef PyObject * (*ternaryfunc)(PyObject *, PyObject *, PyObject *);
inquiry = Signature("T", "i") # typedef int (*inquiry)(PyObject *);
lenfunc = Signature("T", "z") # typedef Py_ssize_t (*lenfunc)(PyObject *);
# typedef int (*coercion)(PyObject **, PyObject **);
intargfunc = Signature("Ti", "O") # typedef PyObject *(*intargfunc)(PyObject *, int);
ssizeargfunc = Signature("Tz", "O") # typedef PyObject *(*ssizeargfunc)(PyObject *, Py_ssize_t);
intintargfunc = Signature("Tii", "O") # typedef PyObject *(*intintargfunc)(PyObject *, int, int);
ssizessizeargfunc = Signature("Tzz", "O") # typedef PyObject *(*ssizessizeargfunc)(PyObject *, Py_ssize_t, Py_ssize_t);
intobjargproc = Signature("TiO", 'r') # typedef int(*intobjargproc)(PyObject *, int, PyObject *);
ssizeobjargproc = Signature("TzO", 'r') # typedef int(*ssizeobjargproc)(PyObject *, Py_ssize_t, PyObject *);
intintobjargproc = Signature("TiiO", 'r') # typedef int(*intintobjargproc)(PyObject *, int, int, PyObject *);
ssizessizeobjargproc = Signature("TzzO", 'r') # typedef int(*ssizessizeobjargproc)(PyObject *, Py_ssize_t, Py_ssize_t, PyObject *);
intintargproc = Signature("Tii", 'r')
ssizessizeargproc = Signature("Tzz", 'r')
objargfunc = Signature("TO", "O")
objobjargproc = Signature("TOO", 'r') # typedef int (*objobjargproc)(PyObject *, PyObject *, PyObject *);
readbufferproc = Signature("TzP", "z") # typedef Py_ssize_t (*readbufferproc)(PyObject *, Py_ssize_t, void **);
writebufferproc = Signature("TzP", "z") # typedef Py_ssize_t (*writebufferproc)(PyObject *, Py_ssize_t, void **);
segcountproc = Signature("TZ", "z") # typedef Py_ssize_t (*segcountproc)(PyObject *, Py_ssize_t *);
charbufferproc = Signature("TzS", "z") # typedef Py_ssize_t (*charbufferproc)(PyObject *, Py_ssize_t, char **);
objargproc = Signature("TO", 'r') # typedef int (*objobjproc)(PyObject *, PyObject *);
# typedef int (*visitproc)(PyObject *, void *);
# typedef int (*traverseproc)(PyObject *, visitproc, void *);
destructor = Signature("T", "v") # typedef void (*destructor)(PyObject *);
# printfunc = Signature("TFi", 'r') # typedef int (*printfunc)(PyObject *, FILE *, int);
# typedef PyObject *(*getattrfunc)(PyObject *, char *);
getattrofunc = Signature("TO", "O") # typedef PyObject *(*getattrofunc)(PyObject *, PyObject *);
# typedef int (*setattrfunc)(PyObject *, char *, PyObject *);
setattrofunc = Signature("TOO", 'r') # typedef int (*setattrofunc)(PyObject *, PyObject *, PyObject *);
delattrofunc = Signature("TO", 'r')
cmpfunc = Signature("TO", "i") # typedef int (*cmpfunc)(PyObject *, PyObject *);
reprfunc = Signature("T", "O") # typedef PyObject *(*reprfunc)(PyObject *);
hashfunc = Signature("T", "h") # typedef Py_hash_t (*hashfunc)(PyObject *);
# typedef PyObject *(*richcmpfunc) (PyObject *, PyObject *, int);
richcmpfunc = Signature("OOi", "O") # typedef PyObject *(*richcmpfunc) (PyObject *, PyObject *, int);
getiterfunc = Signature("T", "O") # typedef PyObject *(*getiterfunc) (PyObject *);
iternextfunc = Signature("T", "O") # typedef PyObject *(*iternextfunc) (PyObject *);
descrgetfunc = Signature("TOO", "O") # typedef PyObject *(*descrgetfunc) (PyObject *, PyObject *, PyObject *);
descrsetfunc = Signature("TOO", 'r') # typedef int (*descrsetfunc) (PyObject *, PyObject *, PyObject *);
descrdelfunc = Signature("TO", 'r')
initproc = Signature("T*", 'r') # typedef int (*initproc)(PyObject *, PyObject *, PyObject *);
# typedef PyObject *(*newfunc)(struct _typeobject *, PyObject *, PyObject *);
# typedef PyObject *(*allocfunc)(struct _typeobject *, int);
getbufferproc = Signature("TBi", "r") # typedef int (*getbufferproc)(PyObject *, Py_buffer *, int);
releasebufferproc = Signature("TB", "v") # typedef void (*releasebufferproc)(PyObject *, Py_buffer *);
#------------------------------------------------------------------------------------------
#
# Signatures for accessor methods of properties.
#
#------------------------------------------------------------------------------------------
property_accessor_signatures = {
'__get__': Signature("T", "O"),
'__set__': Signature("TO", 'r'),
'__del__': Signature("T", 'r')
}
#------------------------------------------------------------------------------------------
#
# Descriptor tables for the slots of the various type object
# substructures, in the order they appear in the structure.
#
#------------------------------------------------------------------------------------------
PyNumberMethods_Py3_GUARD = "PY_MAJOR_VERSION < 3 || CYTHON_COMPILING_IN_PYPY"
PyNumberMethods = (
MethodSlot(binaryfunc, "nb_add", "__add__"),
MethodSlot(binaryfunc, "nb_subtract", "__sub__"),
MethodSlot(binaryfunc, "nb_multiply", "__mul__"),
MethodSlot(binaryfunc, "nb_divide", "__div__", ifdef = PyNumberMethods_Py3_GUARD),
MethodSlot(binaryfunc, "nb_remainder", "__mod__"),
MethodSlot(binaryfunc, "nb_divmod", "__divmod__"),
MethodSlot(ternaryfunc, "nb_power", "__pow__"),
MethodSlot(unaryfunc, "nb_negative", "__neg__"),
MethodSlot(unaryfunc, "nb_positive", "__pos__"),
MethodSlot(unaryfunc, "nb_absolute", "__abs__"),
MethodSlot(inquiry, "nb_nonzero", "__nonzero__", py3 = ("nb_bool", "__bool__")),
MethodSlot(unaryfunc, "nb_invert", "__invert__"),
MethodSlot(binaryfunc, "nb_lshift", "__lshift__"),
MethodSlot(binaryfunc, "nb_rshift", "__rshift__"),
MethodSlot(binaryfunc, "nb_and", "__and__"),
MethodSlot(binaryfunc, "nb_xor", "__xor__"),
MethodSlot(binaryfunc, "nb_or", "__or__"),
EmptySlot("nb_coerce", ifdef = PyNumberMethods_Py3_GUARD),
MethodSlot(unaryfunc, "nb_int", "__int__", fallback="__long__"),
MethodSlot(unaryfunc, "nb_long", "__long__", fallback="__int__", py3 = "<RESERVED>"),
MethodSlot(unaryfunc, "nb_float", "__float__"),
MethodSlot(unaryfunc, "nb_oct", "__oct__", ifdef = PyNumberMethods_Py3_GUARD),
MethodSlot(unaryfunc, "nb_hex", "__hex__", ifdef = PyNumberMethods_Py3_GUARD),
# Added in release 2.0
MethodSlot(ibinaryfunc, "nb_inplace_add", "__iadd__"),
MethodSlot(ibinaryfunc, "nb_inplace_subtract", "__isub__"),
MethodSlot(ibinaryfunc, "nb_inplace_multiply", "__imul__"),
MethodSlot(ibinaryfunc, "nb_inplace_divide", "__idiv__", ifdef = PyNumberMethods_Py3_GUARD),
MethodSlot(ibinaryfunc, "nb_inplace_remainder", "__imod__"),
MethodSlot(ibinaryfunc, "nb_inplace_power", "__ipow__"), # actually ternaryfunc!!!
MethodSlot(ibinaryfunc, "nb_inplace_lshift", "__ilshift__"),
MethodSlot(ibinaryfunc, "nb_inplace_rshift", "__irshift__"),
MethodSlot(ibinaryfunc, "nb_inplace_and", "__iand__"),
MethodSlot(ibinaryfunc, "nb_inplace_xor", "__ixor__"),
MethodSlot(ibinaryfunc, "nb_inplace_or", "__ior__"),
# Added in release 2.2
# The following require the Py_TPFLAGS_HAVE_CLASS flag
MethodSlot(binaryfunc, "nb_floor_divide", "__floordiv__"),
MethodSlot(binaryfunc, "nb_true_divide", "__truediv__"),
MethodSlot(ibinaryfunc, "nb_inplace_floor_divide", "__ifloordiv__"),
MethodSlot(ibinaryfunc, "nb_inplace_true_divide", "__itruediv__"),
# Added in release 2.5
MethodSlot(unaryfunc, "nb_index", "__index__"),
# Added in release 3.5
MethodSlot(binaryfunc, "nb_matrix_multiply", "__matmul__", ifdef="PY_VERSION_HEX >= 0x03050000"),
MethodSlot(ibinaryfunc, "nb_inplace_matrix_multiply", "__imatmul__", ifdef="PY_VERSION_HEX >= 0x03050000"),
)
PySequenceMethods = (
MethodSlot(lenfunc, "sq_length", "__len__"),
EmptySlot("sq_concat"), # nb_add used instead
EmptySlot("sq_repeat"), # nb_multiply used instead
SyntheticSlot("sq_item", ["__getitem__"], "0"), #EmptySlot("sq_item"), # mp_subscript used instead
MethodSlot(ssizessizeargfunc, "sq_slice", "__getslice__"),
EmptySlot("sq_ass_item"), # mp_ass_subscript used instead
SyntheticSlot("sq_ass_slice", ["__setslice__", "__delslice__"], "0"),
MethodSlot(cmpfunc, "sq_contains", "__contains__"),
EmptySlot("sq_inplace_concat"), # nb_inplace_add used instead
EmptySlot("sq_inplace_repeat"), # nb_inplace_multiply used instead
)
PyMappingMethods = (
MethodSlot(lenfunc, "mp_length", "__len__"),
MethodSlot(objargfunc, "mp_subscript", "__getitem__"),
SyntheticSlot("mp_ass_subscript", ["__setitem__", "__delitem__"], "0"),
)
PyBufferProcs = (
MethodSlot(readbufferproc, "bf_getreadbuffer", "__getreadbuffer__", py3 = False),
MethodSlot(writebufferproc, "bf_getwritebuffer", "__getwritebuffer__", py3 = False),
MethodSlot(segcountproc, "bf_getsegcount", "__getsegcount__", py3 = False),
MethodSlot(charbufferproc, "bf_getcharbuffer", "__getcharbuffer__", py3 = False),
MethodSlot(getbufferproc, "bf_getbuffer", "__getbuffer__"),
MethodSlot(releasebufferproc, "bf_releasebuffer", "__releasebuffer__")
)
PyAsyncMethods = (
MethodSlot(unaryfunc, "am_await", "__await__"),
MethodSlot(unaryfunc, "am_aiter", "__aiter__"),
MethodSlot(unaryfunc, "am_anext", "__anext__"),
)
#------------------------------------------------------------------------------------------
#
# The main slot table. This table contains descriptors for all the
# top-level type slots, beginning with tp_dealloc, in the order they
# appear in the type object.
#
#------------------------------------------------------------------------------------------
slot_table = (
ConstructorSlot("tp_dealloc", '__dealloc__'),
EmptySlot("tp_print"), #MethodSlot(printfunc, "tp_print", "__print__"),
EmptySlot("tp_getattr"),
EmptySlot("tp_setattr"),
# tp_compare (Py2) / tp_reserved (Py3<3.5) / tp_as_async (Py3.5+) is always used as tp_as_async in Py3
MethodSlot(cmpfunc, "tp_compare", "__cmp__", ifdef="PY_MAJOR_VERSION < 3"),
SuiteSlot(PyAsyncMethods, "__Pyx_PyAsyncMethodsStruct", "tp_as_async", ifdef="PY_MAJOR_VERSION >= 3"),
MethodSlot(reprfunc, "tp_repr", "__repr__"),
SuiteSlot(PyNumberMethods, "PyNumberMethods", "tp_as_number"),
SuiteSlot(PySequenceMethods, "PySequenceMethods", "tp_as_sequence"),
SuiteSlot(PyMappingMethods, "PyMappingMethods", "tp_as_mapping"),
MethodSlot(hashfunc, "tp_hash", "__hash__", inherited=False), # Py3 checks for __richcmp__
MethodSlot(callfunc, "tp_call", "__call__"),
MethodSlot(reprfunc, "tp_str", "__str__"),
SyntheticSlot("tp_getattro", ["__getattr__","__getattribute__"], "0"), #"PyObject_GenericGetAttr"),
SyntheticSlot("tp_setattro", ["__setattr__", "__delattr__"], "0"), #"PyObject_GenericSetAttr"),
SuiteSlot(PyBufferProcs, "PyBufferProcs", "tp_as_buffer"),
TypeFlagsSlot("tp_flags"),
DocStringSlot("tp_doc"),
GCDependentSlot("tp_traverse"),
GCClearReferencesSlot("tp_clear"),
# Later -- synthesize a method to split into separate ops?
MethodSlot(richcmpfunc, "tp_richcompare", "__richcmp__", inherited=False), # Py3 checks for __hash__
EmptySlot("tp_weaklistoffset"),
MethodSlot(getiterfunc, "tp_iter", "__iter__"),
MethodSlot(iternextfunc, "tp_iternext", "__next__"),
MethodTableSlot("tp_methods"),
MemberTableSlot("tp_members"),
GetSetSlot("tp_getset"),
BaseClassSlot("tp_base"), #EmptySlot("tp_base"),
EmptySlot("tp_dict"),
SyntheticSlot("tp_descr_get", ["__get__"], "0"),
SyntheticSlot("tp_descr_set", ["__set__", "__delete__"], "0"),
DictOffsetSlot("tp_dictoffset"),
MethodSlot(initproc, "tp_init", "__init__"),
EmptySlot("tp_alloc"), #FixedSlot("tp_alloc", "PyType_GenericAlloc"),
InternalMethodSlot("tp_new"),
EmptySlot("tp_free"),
EmptySlot("tp_is_gc"),
EmptySlot("tp_bases"),
EmptySlot("tp_mro"),
EmptySlot("tp_cache"),
EmptySlot("tp_subclasses"),
EmptySlot("tp_weaklist"),
EmptySlot("tp_del"),
EmptySlot("tp_version_tag"),
EmptySlot("tp_finalize", ifdef="PY_VERSION_HEX >= 0x030400a1"),
)
#------------------------------------------------------------------------------------------
#
# Descriptors for special methods which don't appear directly
# in the type object or its substructures. These methods are
# called from slot functions synthesized by Cython.
#
#------------------------------------------------------------------------------------------
MethodSlot(initproc, "", "__cinit__")
MethodSlot(destructor, "", "__dealloc__")
MethodSlot(objobjargproc, "", "__setitem__")
MethodSlot(objargproc, "", "__delitem__")
MethodSlot(ssizessizeobjargproc, "", "__setslice__")
MethodSlot(ssizessizeargproc, "", "__delslice__")
MethodSlot(getattrofunc, "", "__getattr__")
MethodSlot(setattrofunc, "", "__setattr__")
MethodSlot(delattrofunc, "", "__delattr__")
MethodSlot(descrgetfunc, "", "__get__")
MethodSlot(descrsetfunc, "", "__set__")
MethodSlot(descrdelfunc, "", "__delete__")
# Method flags for python-exposed methods.
method_noargs = "METH_NOARGS"
method_onearg = "METH_O"
method_varargs = "METH_VARARGS"
method_keywords = "METH_KEYWORDS"
method_coexist = "METH_COEXIST"
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